1 | <html>
|
---|
2 | <head>
|
---|
3 | <title>Mopra 2005 Workshop - Data reduction tutorial worksheet</title>
|
---|
4 | <style type="text/css" media="all">
|
---|
5 | div.shell {
|
---|
6 | background-color: #dbfff9;
|
---|
7 | padding: 0.1em;
|
---|
8 | }
|
---|
9 | div.code {
|
---|
10 | background-color: #c9ffbf;
|
---|
11 | padding: 0.1em;
|
---|
12 | }
|
---|
13 | div.main {
|
---|
14 | margin: 0.2em 0.2em 0.2em 0.2em;
|
---|
15 | text-align: left;
|
---|
16 | font-family: sans-serif;
|
---|
17 | width: auto;
|
---|
18 | }
|
---|
19 | h1.custom {
|
---|
20 | background-color: #aaaaaa;
|
---|
21 | color: #000000;
|
---|
22 | padding: 0.5em;
|
---|
23 | font-family: sans-serif;
|
---|
24 | font-size: x-large;
|
---|
25 | }
|
---|
26 | </style>
|
---|
27 | </head>
|
---|
28 | <body>
|
---|
29 | <div>
|
---|
30 | <h1 class=custom>
|
---|
31 | Introduction
|
---|
32 | </h1>
|
---|
33 | <div class=main align=center>
|
---|
34 | This is a short tutorial on how to use ASAP for simple on of dual IF
|
---|
35 | observations. It is highly customisable via ".aipsrc" parameters. It
|
---|
36 | can read rpfits,sdfits and measurement sets, and export to sdfits, ms,
|
---|
37 | ASCII and image fits. ASAP provides a lot more functionality, such as
|
---|
38 | frequency alignment, averaging which can't be presented here.
|
---|
39 | </div>
|
---|
40 | <h1 class=custom>
|
---|
41 | Part I - Reduction
|
---|
42 | </h1>
|
---|
43 | <div class=main align=center>
|
---|
44 | To start ASAP type the follwing at the *nix command line prompt
|
---|
45 | <div class=shell>
|
---|
46 | <pre>
|
---|
47 | localhost> asap
|
---|
48 | </pre>
|
---|
49 | </div>
|
---|
50 | To get the list of available commands in asap type:
|
---|
51 | <div class=code><pre>
|
---|
52 | commands()
|
---|
53 | </pre></div>
|
---|
54 | Help can be accessed by using <em>help</em>:
|
---|
55 | <div class=code><pre>
|
---|
56 | help(scantable)
|
---|
57 | help(scantable.summary)
|
---|
58 | </pre></div>
|
---|
59 | To start we are reading in the data into a scantable, which can be accessed via th variable <em>s</em>. After reading in we have a look at the data.
|
---|
60 | <div class=code><pre>
|
---|
61 | s = scantable("2005-05-08_0350.rpf")
|
---|
62 | s.summary()
|
---|
63 | </pre></div>
|
---|
64 | We can plot the scan now. First we set up the plotter to plot "IF" as stcked colours and "time" across panels. Then we issue the plot command.
|
---|
65 | <div class=code><pre>
|
---|
66 | plotter.set_mode("IF","time")
|
---|
67 | plotter.plot(s) # plot s
|
---|
68 | </pre></div>
|
---|
69 | Now we can build the quotient. This applies the quotient to both IFs.
|
---|
70 | <div class=code><pre>
|
---|
71 | q = s.auto_quotient()
|
---|
72 | plotter.plot(q) # plot q
|
---|
73 | </pre></div>
|
---|
74 | Now we can set some information anbout the velocity setup. We set the rest frequencies for 13Co and SiO and want to operate in "LSRK".
|
---|
75 | <div class=code><pre>
|
---|
76 | restfreqs = [110.201,86.243] # 13CO-1/0, SiO the two IF
|
---|
77 | q.set_restfreqs(restfreqs,"GHz") # set the restfrequencies, as not in data
|
---|
78 | q.set_unit("km/s") # set the unit to be used from now on
|
---|
79 | q.set_freqframe("LSRK") # set frequency frame
|
---|
80 | plotter.plot() # replot, should show velocity now
|
---|
81 | </pre></div>
|
---|
82 | Now we can subtract a baseline. ASAP can do this automatically if ther is good S/N and the lines aren't too broad.
|
---|
83 | <div class=code><pre>
|
---|
84 | q.auto_poly_baseline() # determine and subtract a poly baseline automatically
|
---|
85 | plotter.plot() # replot
|
---|
86 | </pre></div>
|
---|
87 | We can zoom in on the spectrum and format the title and legend. ASAP accepts LATEX math expressions.
|
---|
88 | <div class=code><pre>
|
---|
89 | plotter.set_range(-35,35) # zoom in bit
|
---|
90 | plotter.set_legend([r"$^{13}CO(1\leftarrow 0)$",r"$SiO$"]) # make nice latex IF labels
|
---|
91 | plotter.set_title(['Mopra Tutorial 2005']) # set the title
|
---|
92 | </pre></div>
|
---|
93 | Now convert Brightness temperature to Flux density.
|
---|
94 | <div class=code><pre>
|
---|
95 | q.convert_flux() # K -> Jy
|
---|
96 | plotter.plot()
|
---|
97 | </pre></div>
|
---|
98 | This "final" plot can be saved now as "png", "ps" or "eps"
|
---|
99 | <div class=code><pre>
|
---|
100 | plotter.save("tutorial.png")
|
---|
101 | plotter.save("tutorial.eps")
|
---|
102 | </pre></div>
|
---|
103 | We can also do some stats on the spectra. We select a line free region first, which get applied to the statistics.
|
---|
104 | <div class=code><pre>
|
---|
105 | msk = q.create_mask([-70,20], [20,70]) # line free region - two windows
|
---|
106 | rms = q.stats("rms",msk)
|
---|
107 | med = q.stats("median",msk)
|
---|
108 | </pre></div>
|
---|
109 | </div>
|
---|
110 | <h1 class=custom>
|
---|
111 | Part II - Fitting
|
---|
112 | </h1>
|
---|
113 | <div class=main align=center>
|
---|
114 | This part shows how easy it is to fit gaussian line profiles.
|
---|
115 | <div class=code><pre>
|
---|
116 | f = fitter()
|
---|
117 | </pre></div>
|
---|
118 | We start with the first spectrum (IF=0) bys setting the selection. We want to fit two gaussian components.
|
---|
119 | <div class=code><pre>
|
---|
120 | sel = selector()
|
---|
121 | sel.set_ifs(0)
|
---|
122 | q.set_selection(sel)
|
---|
123 | f.set_scan(q)
|
---|
124 | f.set_function(gauss=2) # fit two gaussians
|
---|
125 | f.fit()
|
---|
126 | f.plot(
|
---|
127 | </pre></div>
|
---|
128 | The second IFs spectrum is more complex. We select it and fit seven gaussians to it. Here we also plot residuals, the individual components and the fit parameters.
|
---|
129 | <div class=code><pre>
|
---|
130 | sel.set_ifs(1)
|
---|
131 | q.set_selection(sel)
|
---|
132 | f.set_function(gauss=7)
|
---|
133 | f.fit()
|
---|
134 | f.plot(residual=True)
|
---|
135 | f.plot(components=[0,1,2,3,4,5,6,-1])
|
---|
136 | f.plot(components=[0,1,2,3,4,5,6,-1],plotparms=True)
|
---|
137 | </pre></div>
|
---|
138 | </div>
|
---|
139 | <h1 class=custom>
|
---|
140 | Appendix
|
---|
141 | </h1>
|
---|
142 | <div class=main align=center>
|
---|
143 | More info can be found on the ASAP homepage
|
---|
144 | <a href="http://www.atnf.csiro.au/computing/software/asap">
|
---|
145 | http://www.atnf.csiro.au/computing/software/asap</a>
|
---|
146 | </div>
|
---|
147 | </body>
|
---|
148 | </html>
|
---|